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Raising a child is challenging for many parents, especially for a new, immigrant family. For those parents, they not only have to face the challenges of integrating themselves into a new environment, but they also need to handle the conflicts coming from two cultural backgrounds. Like many Chinese Americans, the authors inherited the traditional Chinese culture. Yet they also opened their minds and embraced their new culture. Through the collisions of these two cultures, they developed a unique parenting strategy: a combination of the best of both worlds to educate their children. This approach offered them a cutting edge in developing their children to be among the most competitive. As they raised their children, they held parties to build their children's social groups; used teamwork to create a harmonious family, strengthening the family bonds; helped their children excel in academic competitions; taught their children how to be rigorous and strive for perfection; inspired their children to explore innovative strategies to overcome obstacles; developed their children's creativity, leadership, and initiative; encouraged their children to be involved in the community; and gave their children freedom to develop their individual personalities and discover their full potentials. The authors believe that their story will be beneficial to other parents and also provide a new perspective of Chinese American families for mainstream Americans.
This succinct and practical reference/text presents statistical reasoning and interpretational techniques to aid in the decision making process when faced with engineering problems-emphasizing the use of spreadsheet simulations and decision trees as important tools in the practical application of decision making analyses and models to improve real-world engineering operations. Offers new insight into the realities of high-stakes engineering decision making in the investigative and corporate sectors by optimizing engineering decision variables to maximize payoff. What Every Engineer Should Know About DECISION MAKING UNDER UNCERTAINTY presents new paradigms for engineering decision making covers customer-focused engineering decision making details spreadsheet simulation methods to help avoid bias and habitual behavior discusses continuous quality improvement versus business reengineering processes illustrates information value in decision making during uncertainty analyzes capital budgeting discusses the accuracy of sample estimates presents practical case studies from various engineering disciplines and shows how to tailor the illustrated methods to different applications Predicting outcomes of engineering decisions through regression analysis, this reference will benefit mechanical, civil, electrical and electronics, materials, chemical, mineral, cost, quality, reliability, industrial, product development, safety, forensic, and consulting engineers; architects; engineering managers; and project and program managers; and is an essential text for upper-level undergraduate, graduate, and continuing-education students in these disciplines.
Discusses Risk Engineering and how to deal with System Complexity and Engineering Dynamics. Highlights how AI can present new and unique ways of failure that need to be addressed. Extends the term "Risk Engineering" introduced by the first edition to Complex Systems in this new edition. Relates Decision Tree which was explored in the first edition to Fault Diagnosis in the new edition. Includes new chapters on System Complexity, AI, and Causal Risk Assessment along with other chapters being updated to make the book more current
Designing new products and improving existing ones is a continual process. Industrial design engineering is an industrial engineering process applied to product designs that are to be manufactured through techniques of production operations. Excellent industrial design engineering programs are essential for the nation's industry to succeed in selling useful and ecologically justifiable and usable products on a market flooded with goods and services. This unique text on industrial design engineering integrates basic knowledge, insight, and working methods from industrial engineering and product design subjects. Industrial Design Engineering: Inventive Problem Solving provides a combination of engineering thinking and design skills that give the researchers, practitioners, and students an excellent foundation for participation in product development projects and techniques for establishing and managing such projects. The design principles are presented around examples related to the designing of products, goods, and services. Case studies are developed around real problems and are based on the customer's needs.
In today's business world, competitiveness defines the industrial leading edge. Organizations and businesses of all sizes are adopting Lean manufacturing practices to increase efficiency and address worries about their bottom lines. In a detailed review of this staple of Lean manufacturing, Cellular Manufacturing: Mitigating Risk and Uncertainty outlines how cellular manufacturing can do just that. It demonstrates how this approach can help you and your teams build a variety of products with as little waste as possible. The book begins by presenting a survey of the current state of existing methods that can best be used in the handling of the bottleneck machines and parts problem, which results from the cellular manufacturing system design. It then explores how decision making under risk is used to help the designer select the best cell arrangement in case of probabilistic production volume and maximize the profit imposed by resource capacity constraints. The author then presents a method for the system design of a manufacturing cell that aims for profit maximization over a certain period of time. He also discusses robust design, illustrated with a real application. Put simply, cellular manufacturing integrates machinery and a small team of staff, directed by a team leader, so all the work on a product or part can be accomplished in the same cell eliminating resources that do not add value to the product. A concise yet unique reference, this book incorporates decision making under risk into cellular manufacturing. The text makes the link that ties cellular manufacturing to the bottom line. It helps you recognize savings opportunities from elimination of downtime between operations, decreased material handling costs, decreased work-in-progress inventory and associated costs, reduced opportunity for handling errors, decreased downtime spent waiting for supplies or materials, and reduced losses from defective or obsolete products.
Covering the prediction of outcomes for engineering decisions through regression analysis, this succinct and practical reference presents statistical reasoning and interpretational techniques to aid in the decision making process when faced with engineering problems. The author emphasizes the use of spreadsheet simulations and decision trees as important tools in the practical application of decision making analyses and models to improve real-world engineering operations. He offers insight into the realities of high-stakes engineering decision making in the investigative and corporate sectors by optimizing engineering decision variables to maximize payoff.
Discusses Risk Engineering and how to deal with System Complexity and Engineering Dynamics. Highlights how AI can present new and unique ways of failure that need to be addressed. Extends the term "Risk Engineering" introduced by the first edition to Complex Systems in this new edition. Relates Decision Tree which was explored in the first edition to Fault Diagnosis in the new edition. Includes new chapters on System Complexity, AI, and Causal Risk Assessment along with other chapters being updated to make the book more current
Designing new products and improving existing ones is a continual process. Industrial design engineering is an industrial engineering process applied to product designs that are to be manufactured through techniques of production operations. Excellent industrial design engineering programs are essential for the nation's industry to succeed in selling useful and ecologically justifiable and usable products on a market flooded with goods and services. This unique text on industrial design engineering integrates basic knowledge, insight, and working methods from industrial engineering and product design subjects. Industrial Design Engineering: Inventive Problem Solving provides a combination of engineering thinking and design skills that give the researchers, practitioners, and students an excellent foundation for participation in product development projects and techniques for establishing and managing such projects. The design principles are presented around examples related to the designing of products, goods, and services. Case studies are developed around real problems and are based on the customer's needs.
Going "green" is becoming a major component of the mission for electronics manufacturers worldwide. While this goal seems simplistic, it poses daunting dilemmas. Yet, to compete effectively in the global economy, manufacturers must take the initiative to drive this crucial movement. Green Electronics Manufacturing: Creating Environmental Sensible Products provides you with a complete reference to design, develop, build, and install an electronic product with special consideration for the product's environmental impacts during its whole life cycle. The author discusses how to integrate the state-of-the-art technologies of finite element method (FEM) modeling, simulation, and testing to create environmental sensible products of satisfying global environmental regulations, such as Restriction of Hazardous Substances (ROHS) compliance. He covers enabling techniques such as advanced fatigue life modeling, crack propagation analysis, and probabilistic robust design of lead-free electronics. The book also explores how risk engineering methodology empowers practitioners with effective tools such as buckling analysis of tin whiskers. With its emphasis on reducing parts, rationing materials, and reusing components to make products more efficient to build, green electronics intertwines today's electronics with manufacturing strategies of global sourcing, concurrent engineering, and total quality. Implemented through product and process design, it can help you achieve sustainability to support future generations and at the same time preserve our natural resources. Green Electronics Manufacturing: Creating Environmental Sensible Products gives you the tools to create environmental sensible products while maintaining electronics quality and reliability.
Going "green" is becoming a major component of the mission for electronics manufacturers worldwide. While this goal seems simplistic, it poses daunting dilemmas. Yet, to compete effectively in the global economy, manufacturers must take the initiative to drive this crucial movement. Green Electronics Manufacturing: Creating Environmental Sensible Products provides you with a complete reference to design, develop, build, and install an electronic product with special consideration for the product s environmental impacts during its whole life cycle. The author discusses how to integrate the state-of-the-art
technologies of finite element method (FEM) modeling, simulation,
and testing to create environmental sensible products of satisfying
global environmental regulations, such as Restriction of Hazardous
Substances (ROHS) compliance. He covers enabling techniques such as
advanced fatigue life modeling, crack propagation analysis, and
probabilistic robust design of lead-free electronics. The book also
explores risk engineering methodology empowers practitioners with
effective tools such as buckling analysis of tin whiskers.
Engineers must possess a range of business communication skills that enable them to effectively communicate the purpose and relevance of their idea, process, or technical design. This unique business communication text is packed with practical advice that will improve your ability to Market ideas Write proposals Generate enthusiasm for research Deliver presentations Explain a design Organize a project team Coordinate meetings Create technical reports and specifications Focusing on the three critical communication needs of engineering professionals'speaking, writing, and listening the book delineates critical communication strategies required in many group settings and work situations. It demonstrates how to integrate a marketing strategy into every facet of engineering communication, from presentations, visual aids, proposals, and technical reports to e-mail and phone calls. Using situational examples, the book also illustrates how to use computers, graphics, and other engineering tools to effectively communicate with other engineers and managers.
This succinct text explains how to assess and handle technical risk, schedule risk, and cost risk efficiently and effectively-enabling engineering professionals to anticipate failures regardless of system complexity-highlighting opportunities to turn failure into success. Introduces the term "risk engineering" for controlling technical risk through identification, analysis, design, and process management What Every Engineer Should Know About Risk Engineering and Management reveals strategies for identifying the limitations and breaking points of engineering designs predicts the likelihood of designs going wrong and considers the consequences bases acceptable risk on the extent to which material strength, engineering design, manufacturing process, and operational environments can be controlled shows how to find the initiators and major contributors to cost risk and avoid wasting scarce resources illustrates how to identify critical paths to deliver products within a specified period of time presents a framework for integrated risk management aided by computer simulation emphasizes failure mode and effect analysis (FMEA) includes fault and event tree analysis describes Taguchi's robust design defines life cycle cost management (LCCM) and more What Every Engineer Should Know About Risk Engineering and Management is a vital, forward-looking reference for mechanical, civil, electrical and electronics, materials, chemical, mineral, cost, quality, reliability, industrial, developmental, safety, forensic, and consulting engineers; architects; project managers; and a superb text for upper-level undergraduate, graduate, and continuing-education students in these disciplines.
In today's business world, competitiveness defines the industrial leading edge. Organizations and businesses of all sizes are adopting Lean manufacturing practices to increase efficiency and address worries about their bottom lines. In a detailed review of this staple of Lean manufacturing, Cellular Manufacturing: Mitigating Risk and Uncertainty outlines how cellular manufacturing can do just that. It demonstrates how this approach can help you and your teams build a variety of products with as little waste as possible. The book begins by presenting a survey of the current state of existing methods that can best be used in the handling of the bottleneck machines and parts problem, which results from the cellular manufacturing system design. It then explores how decision making under risk is used to help the designer select the best cell arrangement in case of probabilistic production volume and maximize the profit imposed by resource capacity constraints. The author then presents a method for the system design of a manufacturing cell that aims for profit maximization over a certain period of time. He also discusses robust design, illustrated with a real application. Put simply, cellular manufacturing integrates machinery and a small team of staff, directed by a team leader, so all the work on a product or part can be accomplished in the same cell eliminating resources that do not add value to the product. A concise yet unique reference, this book incorporates decision making under risk into cellular manufacturing. The text makes the link that ties cellular manufacturing to the bottom line. It helps you recognize savings opportunities from elimination of downtime between operations, decreased material handling costs, decreased work-in-progress inventory and associated costs, reduced opportunity for handling errors, decreased downtime spent waiting for supplies or materials, and reduced losses from defective or obsolete products.
Engineers must possess a range of business communication skills that enable them to effectively communicate the purpose and relevance of their idea, process, or technical design. This unique business communication text is packed with practical advice that will improve your ability to"-" "" - Market ideas - Write proposals - Generate enthusiasm for research - Deliver presentations - Explain a design - Organize a project team - Coordinate meetings - Create technical reports and specifications Focusing on the three critical communication needs of engineering professionals-speaking, writing, and listening-the book delineates critical communication strategies required in many group settings and work situations. It demonstrates how to integrate a marketing strategy into every facet of engineering communication, from presentations, visual aids, proposals, and technical reports to e-mail and phone calls. Using situational examples, the book also illustrates how to use computers, graphics, and other engineering tools to effectively communicate with other engineers and managers.
The delivery of real bottom-line results from manufacturing improvements has proven to be much harder than expected for most companies. TQM, Zero-Defect Manufacturing, and Business Process Re-engineering have dropped off the landscape for taking much too long and failing to deliver the promised results. Lean Six Sigma is now experiencing the same fundamental difficulty. Delineating a quantitative approach, Lean Manufacturing: Business Bottom-Line Based shows you how to revitalize Lean Six Sigma by aligning it with your business' bottom line and thus delivering results that your executives, business leaders, and customers expect. Written by an expert who has transformed product design and manufacturing at companies ranging from Maytag and Visteon to General Electric, the book demonstrates that an awareness of manufacturing business metrics is absolutely essential for every lean manufacturing practitioner. The author has seen first-hand the limitation of traditional lean manufacturing driven by business bottom lines. He outlines case studies linking world events and manufacturing efficiency and presents lean manufacturing strategies and techniques designed to accelerate responses to current and future events on the floors of the world's manufacturing facilities. Typically, advice on lean manufacturing comes in the form of techniques regarding a particular tool or tool-box, yet the factory floor, like everything in the global community, is profoundly driven by business bottom lines. This book presents a systematic approach to improve business bottom lines through identifying and eliminating waste, and adding value and fulfillment by flowing the product at the demand of the customer.
Raising a child is challenging for many parents, especially for a new, immigrant family. For those parents, they not only have to face the challenges of integrating themselves into a new environment, but they also need to handle the conflicts coming from two cultural backgrounds. Like many Chinese Americans, the authors inherited the traditional Chinese culture. Yet they also opened their minds and embraced their new culture. Through the collisions of these two cultures, they developed a unique parenting strategy: a combination of the best of both worlds to educate their children. This approach offered them a cutting edge in developing their children to be among the most competitive. As they raised their children, they held parties to build their children's social groups; used teamwork to create a harmonious family, strengthening the family bonds; helped their children excel in academic competitions; taught their children how to be rigorous and strive for perfection; inspired their children to explore innovative strategies to overcome obstacles; developed their children's creativity, leadership, and initiative; encouraged their children to be involved in the community; and gave their children freedom to develop their individual personalities and discover their full potentials. The authors believe that their story will be beneficial to other parents and also provide a new perspective of Chinese American families for mainstream Americans.
The delivery of real bottom-line results from manufacturing improvements has proven to be much harder than expected for most companies. TQM, Zero-Defect Manufacturing, and Business Process Re-engineering have dropped off the landscape for taking much too long and failing to deliver the promised results. Lean Six Sigma is now experiencing the same fundamental difficulty. Delineating a quantitative approach, Lean Manufacturing: Business Bottom-Line Based shows you how to revitalize Lean Six Sigma by aligning it with your business bottom line and thus delivering results that your executives, business leaders, and customers expect. Written by an expert who has transformed product design and manufacturing at companies ranging from Maytag and Visteon to General Electric, the book demonstrates that an awareness of manufacturing business metrics is absolutely essential for every lean manufacturing practitioner. The author has seen first-hand the limitation of traditional lean manufacturing driven by business bottom lines. He outlines case studies linking world events and manufacturing efficiency and presents lean manufacturing strategies and techniques designed to accelerate responses to current and future events on the floors of the world s manufacturing facilities. Typically, advice on lean manufacturing comes in the form of techniques regarding a particular tool or tool-box, yet the factory floor, like everything in the global community, is profoundly driven by business bottom lines. This book presents a systematic approach to improve business bottom lines through identifying and eliminating waste, and adding value and fulfillment by flowing the product at the demand of the customer.
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